Measuring device and method for measuring a seat mat for a vehicle seat

ABSTRACT

The present invention proposes a measurement apparatus and a method for measuring a seat mat for a vehicle seat which serve to perform a function test or a recording of readings by way of a negative pressure that is generated in the seat mat. The negative pressure is established by way of a pressure difference between said negative pressure and the external atmospheric pressure. The method according to the present invention is thus independent of the external atmospheric pressure. The controller that establishes the pressure difference is embodied either electronically or mechanically.

BACKGROUND INFORMATION

[0001] The invention is based on a measurement apparatus and a method for measuring a seat mat for a vehicle seat, according to the species defined in the independent claims.

[0002] It is already known that seat mats for a vehicle seat are measured, in terms of their function and in order to record readings, either with a plunger having a defined weight or in an overpressure chamber. The plunger has a specific weight, for example 400 g, while in the case of the overpressure chamber, a variety of readings can be generated by modifying the overpressure in a pressure chamber. The pressure chamber is approximately the same size as the seat mat, and is suitable for resisting a defined overpressure.

ADVANTAGES OF THE INVENTION

[0003] The measurement apparatus and method according to the present invention for measuring a seat mat for a vehicle seat that have the features of the independent claims have, in contrast, the advantage that because a negative pressure is used in the seat mat, an easily adjustable pressure difference between the external atmospheric pressure and the aforesaid negative pressure results in an accurate setting for the weight load. In particular, the method and measurement apparatus according to the present invention are thus independent of the external atmospheric pressure, since in fact only the difference is used to set the negative pressure.

[0004] The fact that a negative pressure is used in the seat mat makes the method according to the present invention safer, since there is no need for an overpressure chamber that can burst as a result of an uncontrolled overpressure. Since a pressure chamber is not necessary, the measurement apparatus according to the present invention can advantageously be placed along with the seat mat in an environmental chamber, in order to perform a temperature-dependent measurement. Because of the fact that an overpressure chamber is not required for the seat mat, the measurement apparatus is easily transportable and thus easy to handle. The features developments set forth in the dependent claims make possible advantageous improvements in the measurement apparatus and method for measuring a seat mat for a vehicle seat that are described in the independent claims.

[0005] It is particularly advantageous that the controller is embodied electronically, thus making automation possible. A mechanical embodiment of the controller results in flexible handling of the method according to the present invention.

DRAWING

[0006] Exemplary embodiments of the present invention are depicted in the drawings and explained in more detail in the description which follows.

[0007] In the drawings:

[0008]FIG. 1 is a schematic depiction of the seat mat in cross section, with the measurement apparatus connected;

[0009]FIG. 2 is a block diagram of the seat mat and the connected measurement apparatus with analysis system;

[0010]FIG. 3 shows the method according to the present invention as a flow chart.

DESCRIPTION

[0011] Seat mats for vehicle seats have pressure-dependent resistors, for example in order to indicate to a restraint system in a vehicle who or what is sitting on the respective seat. This makes possible, in particular, a classification of persons (height and weight) and a differentiation between persons and objects. Seat profiles, in particular, are also used for this purpose.

[0012] The pressure-dependent resistors are so-called FSR (force sensing resistor) sensors. The FSR sensors are made up of two substrates onto which pressure-sensitive films and electrodes are applied. When a force is exerted on this FSR sensor, its electrical resistance decreases. This decrease is a monotonic function of the applied force. Several sensors, whose resistance values are measured and converted into digital values, are housed in a seat mat.

[0013] After the mats are manufactured, a functional test or instrumental characterization of the sensors in the seat mat is necessary. A method and measurement apparatus for measuring the seat mat for a vehicle seat which use a negative pressure in the seat are therefore utilized according to the present invention, a pressure difference being established between that negative pressure and the atmospheric pressure of the environment. This pressure difference is controlled by a controller that is embodied either electronically or mechanically. The readings are indicated as a function of the applied pressure produced by the negative pressure.

[0014]FIG. 1 schematically depicts a cross section of a seat mat with a measurement apparatus according to the present invention connected to it. The seat mat has a film 1, a plastic layer 2 as spacer, and a second film 3, FSR sensors 4 being adhesively bonded onto films 1 and 3. In addition, electrodes and conductors (not depicted here) are applied onto films 1 and 3 in order to sense the readings of FSR sensors 4. Cavities 6 are present in the seat mat to allow an elastic reaction to an applied pressure. Since the air in cavities 6 is intended to escape when a weight is present on the vehicle seat having the seat mat, to allow an elastic reaction to that pressure the seat mat includes a venting conduit 7 to which the measurement apparatus according to the present invention is connected.

[0015] A suction connector 5 is therefore mounted on the seat mat via venting conduit 7. Connected to suction connector 5 at the other end is a pump 9 that, by way of a controller 8, controls in terms of the pressure difference between the negative pressure in the seat mat and the external atmospheric pressure. Controller 8 measures the vacuum and the external atmospheric pressure, and controls the pump in accordance with a value set on controller 8. Controller 8 is here arranged between suction connector 5 and pump 9. Arrows 20 and 21 indicate the force of the external atmospheric pressure that acts when a negative pressure is generated in the seat mat. The recording apparatus for the readings of FSR sensors 4, and the memory and output apparatus connected to the recording apparatus, are not depicted here.

[0016] The measured readings are converted into weight values using a stored table that is then located in a control unit in the vehicle. From those values, a processor in the control unit can then calculate how heavy and tall the person will be, the seat profile additionally being used. This is necessary for adjustment of an airbag in order to prevent injury to persons upon triggering of an airbag.

[0017]FIG. 2 shows the seat mat with the connected measurement apparatus as a block diagram. A seat mat 10 is pumped down by way of the pump together with a controller and a suction connector, combined into block 14, in order thereby to generate a negative pressure in seat mat 10.

[0018] Electrical terminals of seat mat 10 lead to a recording apparatus 11 for the readings. A first data output of recording apparatus 11 for the readings leads to a display 12, and a second data output of recording apparatus 11 leads to a memory 13.

[0019] The regulated pump unit 14 pumps seat mat 10 down in order to generate the negative pressure, the negative pressure being established by a pressure difference between the negative pressure and the external atmospheric pressure. As a function of this pressure difference, FSR sensors 4 in seat mat 10 yield different resistance values that are measured by recording apparatus 11. For that purpose, recording apparatus 11 applies a voltage to the electrical terminal of electrical seat mat 10, or it drives a current through the electrical terminal, in order ultimately to ascertain the resistance of seat mat 10. These resistance values are then digitized and optionally further processed in recording apparatus 11 in order then to display said values by display 12 and/or store them in memory 13.

[0020] It is furthermore possible for a curve tracer to be connected to recording apparatus 11 so that the measured resistance values of FSR sensors 4 can be outputted directly as a function of the pressure difference that is generated. This furnishes a test of the functionality of seat mat 10. The measurement apparatus according to the present invention is therefore made up of suction connector 5, pump 9, controller 8, recording apparatus 11, display 12, and memory 13.

[0021] If the characteristic curve is to be outputted as a function of the pressure difference, a connection between controller 8 and recording apparatus 11 must be provided.

[0022]FIG. 3 depicts, as a flow chart, the method according to the present invention for measuring seat mat 10 for a vehicle seat. In method step 15, the measurement apparatus according to the present invention is connected to seat mat 10. In method step 16, a pressure difference between the interior of seat mat 10 and the external atmospheric pressure is established by suction connector 5, pump 9, and controller 8, a negative pressure being generated in seat mat 10. For that purpose, the regulated pump unit 14 pumps the air conduits of seat mat 10 until empty.

[0023] In method step 17, this pressure difference is therefore established, and then in method step 18 the corresponding readings are recorded by recording apparatus 11 and optionally displayed with display 11 or stored in memory 13 for later processing. In method step 19, this output of the characteristic curve is performed.

[0024] It is furthermore possible for the measurement apparatus according to the present invention to be transported, with seat mat 10, into an environmental chamber so that a temperature-dependent measurement can be performed therein. 

What is claimed is:
 1. A measurement apparatus for measuring a seat mat of a vehicle seat, the seat mat (10) comprising two films (1, 3) with pressure sensors (4), a plastic layer (2) between the films (1, 3), a venting conduit (7), and at least one cavity (6), wherein the measurement apparatus includes a suction connector (5) for connection to the venting conduit (7), a pump (9) for generating a negative pressure in the seat mat (10), a controller (8) for establishing a pressure difference between the negative pressure in the seat mat (10) and the external air pressure, a recording apparatus (11) for readings of the pressure sensors (4), and means (12, 13) for optical output and/or storage of the readings.
 2. The measurement apparatus as defined in claim 1, wherein the controller (8) is embodied as an electronic controller.
 3. The measurement apparatus as defined in claim 1, wherein the controller (8) is embodied as a mechanical controller.
 4. A method for measuring a seat mat (10) for a vehicle seat, the seat mat (10) being exposed to a pressure load for the recording of readings and/or for the performance of a function test, wherein a negative pressure is established in the seat mat (10) in order to generate the pressure load, a pressure difference being controlled in the seat mat (10) between the negative pressure in the seat mat (10) and the air pressure in the environment.
 5. The method as defined in claim 4, wherein the measurement of the seat mat (10) is performed in a climatic chamber.
 6. The method as defined in claim 4 or 5, wherein the pressure difference is established electronically.
 7. The method as defined in claim 4 or 5, wherein the pressure difference is controlled mechanically. 